The molecular theory states that the pressure exerted by a gas in a closed vessel results from the gas molecules striking against the walls of the vessel. How will the pressure change if
the temperature is doubled keeping the volume constant ?

The molecular theory states that the pressure exerted by a gas in closed vessel results from the gas molecules striking against the walls of the vessel. How will the pressure change if : the temperature is doubled keeping the volume constant

The molecular theory states that the pressure exerted by a gas in closed vessel results from the gas molecules striking against the walls of the vessel. How will the pressure change if : the volume is made half of its original value keeping the temperature constant?

Can the temperature of a gas increased keeping its pressure and volume constant ?

In a process, the pressure of a gas remains constant. If the temperature is doubles, then the change in the volume will be.

The raise in the temperature of a given mass of an ideal gas at constant pressure and at temperature 27^@ to double its volume is

The temperature of a gas filled in closed vessel reduces by 1^@ C . Calculate the ratio of change in pressure to the original pressure of the gas.

By how much will the mean free path of a gas molecule is a vessel at constant P change if the temperature is reduced by 20% ?

For a fixed amount of an ideal gas present at STP, if temperature is doubled keeping volume same then the final pressure of

What are the different ways of increasing the number of molecules collisions per unit time against the walls of the vessel containing a gas ?

When a gas is heated in a vessel of constant volume , the pressure increases because